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I'm looking to convert a Java char array to a byte array without creating an intermediate String, as the char array contains a password. I've looked up a couple of methods, but they all seem to fail:

char[] password = "password".toCharArray();

byte[] passwordBytes1 = new byte[password.length*2];

byte[] passwordBytes2 = new byte[password.length*2];
for(int i=0; i<password.length; i++) {
    passwordBytes2[2*i] = (byte) ((password[i]&0xFF00)>>8); 
    passwordBytes2[2*i+1] = (byte) (password[i]&0x00FF); 

String passwordAsString = new String(password);
String passwordBytes1AsString = new String(passwordBytes1);
String passwordBytes2AsString = new String(passwordBytes2);

assertTrue(passwordAsString.equals(passwordBytes1) || passwordAsString.equals(passwordBytes2));

The assertion always fails (and, critically, when the code is used in production, the password is rejected), yet the print statements print out password three times. Why are passwordBytes1AsString and passwordBytes2AsString different from passwordAsString, yet appear identical? Am I missing out a null terminator or something? What can I do to make the conversion and unconversion work?

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Why do You want to avoid creating an intermediate String? – KarlP Feb 8 '11 at 10:53
Sun recommends it as best practice:… Strings are immutable, and hence can't be zeroed out like char arrays - instead, your password hangs around in memory for an indeterminate amount of time. – Scott Feb 8 '11 at 11:09

6 Answers 6

up vote 10 down vote accepted

The problem is your use of the String(byte[]) constructor, which uses the platform default encoding. That's almost never what you should be doing - if you pass in "UTF-16" as the character encoding to work, your tests will probably pass. Currently I suspect that passwordBytes1AsString and passwordBytes2AsString are each 16 characters long, with every other character being U+0000.

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I just tried that (i.e. String passwordBytes1AsString = new String(passwordBytes1, "UTF-16");) and there's no change. I also tried checking the length of the strings - String.length() returns 8. Would it count U+0000 characters? – Scott Feb 8 '11 at 10:33
@Scott: Try printing out the lengths of the strings, and the individual characters (as int values). That'll show you where the differences are. – Jon Skeet Feb 8 '11 at 10:36
112,97,115,115,119,111,114,100 for both the original and the converted ones. – Scott Feb 8 '11 at 10:41
@Scott: In that case the assertion really should pass now... – Jon Skeet Feb 8 '11 at 10:42
Have just noticed that I was using the wrong parameters to equals() in the assertion. *facepalm* Your original supposition was indeed the correct one. Many thanks. – Scott Feb 8 '11 at 10:47

Conversion between char and byte is character set encoding and decoding.I prefer to make it as clear as possible in code. It doesn't really mean extra code volume:

 Charset latin1Charset = Charset.forName("ISO-8859-1"); 
 charBuffer = latin1Charset.decode(ByteBuffer.wrap(byteArray)); // also decode to String
 byteBuffer = latin1Charset.encode(charbuffer);                 // also decode from String


java.nio classes and Reader/Writer classes use ByteBuffer & CharBuffer (which use byte[] and char[] as backing arrays). So often preferable if you use these classes directly. However, you can always do:

 byteArray = ByteBuffer.array();  byteBuffer = ByteBuffer.wrap(byteArray);  
 byteBuffer.get(byteArray);       charBuffer.put(charArray);
 charArray = CharBuffer.array();  charBuffer = ByteBuffer.wrap(charArray);
 charBuffer.get(charArray);       charBuffer.put(charArray);
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If you want to use a ByteBuffer and CharBuffer, don't do the simple .asCharBuffer(), which simply does an UTF-16 (LE or BE, depending on your system - you can set the byte-order with the order method) conversion (since the Java Strings and thus your char[] internally uses this encoding).

Use Charset.forName(charsetName), and then its encode or decode method, or the newEncoder /newDecoder.

When converting your byte[] to String, you also should indicate the encoding (and it should be the same one).

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You should make use of getBytes() instead of toCharArray()

Replace the line

char[] password = "password".toCharArray();


byte[] password = "password".getBytes();
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dont use String#getBytes() without specifying an encoding, that gets you into all kinds of portability trouble. – eckes Nov 22 '12 at 17:14
not appropriate to the use case : this line was just an easy way to get char[] in this example. – Cerber Apr 16 '14 at 11:54

I would do is use a loop to convert to bytes and another to conver back to char.

char[] chars = "password".toCharArray();
byte[] bytes = new byte[chars.length*2];
for(int i=0;i<chars.length;i++) {
   bytes[i*2] = (byte) (chars[i] >> 8);
   bytes[i*2+1] = (byte) chars[i];
char[] chars2 = new char[bytes.length/2];
for(int i=0;i<chars2.length;i++) 
   chars2[i] = (char) ((bytes[i*2] << 8) + (bytes[i*2+1] & 0xFF));
String password = new String(chars2);
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Just a nitpick but shouldn't your second line be byte[] bytes = new byte[chars.length*2];, I think you have an extra s on the end of byte. – John Jan 22 '13 at 19:04
@johnthexiii Thank you for the correction. – Peter Lawrey Jan 22 '13 at 19:08
Bytes to chars conversion from above code snippet will not work for the whole range of chars, because bytes are signed while chars are not. I'm going to make a post with a fixed version. – Arhimed Mar 12 '14 at 10:26
@Arhimed good point. need to mask the signed value. – Peter Lawrey Mar 12 '14 at 23:07

This is an extension to Peter Lawrey's answer. In order to backward (bytes-to-chars) conversion work correctly for the whole range of chars, the code should be as follows:

char[] chars = new char[bytes.length/2];
for (int i = 0; i < chars.length; i++) {
   chars[i] = (char) (((bytes[i*2] & 0xff) << 8) + (bytes[i*2+1] & 0xff));

We need to "unsign" bytes before using (& 0xff). Otherwise half of the all possible char values will not get back correctly. For instance, chars within [0x80..0xff] range will be affected.

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